In the last decadesm, experimental and theoretical research has led to a breaktrough of understanding of the stucture and function of membranes. The absolete picture of inert envelopes, functioning only as passive barriers against diffusion, has been replaced by that of a highly complicated and specific structure that forms the scene for many important biological processes. ... Zie: General introductio
Molecular dynamics (MD) simulations have become a highly important technique to consider lipid membr...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
Molecular dynamics (MD) simulations have become a standard method to explore the detailed atomic pro...
In the last decadesm, experimental and theoretical research has led to a breaktrough of understandin...
Biological membranes are tricky to investigate. They are complex in terms of molecular composition a...
There has been an almost exponential increase in the use of molecular dynamics simulations in basic ...
Molecular simulations are an invaluable tool for understanding membrane proteins. Improvements to bo...
ABSTRACT: Computational modeling and molecular simu-lation techniques have become an integral part o...
A range of simulations have been conducted to investigate the behaviour of a diverse set of complex ...
Cell membranes contain a large variety of lipid types and are crowded with proteins, endowing them w...
Cellular membranes are fundamental constituents of living organisms. Apart from defining the boundar...
Cellular membranes are incredibly complex structures composed of diverse biomolecules including lipi...
Bacteria are protected by complex molecular architectures known as the cell envelope. The cell envel...
Biological membranes (short: biomembranes) are one of the most complex structures that allow life to...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
Molecular dynamics (MD) simulations have become a highly important technique to consider lipid membr...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
Molecular dynamics (MD) simulations have become a standard method to explore the detailed atomic pro...
In the last decadesm, experimental and theoretical research has led to a breaktrough of understandin...
Biological membranes are tricky to investigate. They are complex in terms of molecular composition a...
There has been an almost exponential increase in the use of molecular dynamics simulations in basic ...
Molecular simulations are an invaluable tool for understanding membrane proteins. Improvements to bo...
ABSTRACT: Computational modeling and molecular simu-lation techniques have become an integral part o...
A range of simulations have been conducted to investigate the behaviour of a diverse set of complex ...
Cell membranes contain a large variety of lipid types and are crowded with proteins, endowing them w...
Cellular membranes are fundamental constituents of living organisms. Apart from defining the boundar...
Cellular membranes are incredibly complex structures composed of diverse biomolecules including lipi...
Bacteria are protected by complex molecular architectures known as the cell envelope. The cell envel...
Biological membranes (short: biomembranes) are one of the most complex structures that allow life to...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
Molecular dynamics (MD) simulations have become a highly important technique to consider lipid membr...
We review the use of molecular dynamics (MD) simulation as a drug design tool in the context of the ...
Molecular dynamics (MD) simulations have become a standard method to explore the detailed atomic pro...